ref: 70dc980703e5dbcff3dc35ab2f906e3711da7f18
dir: /test/ivf_video_source.h/
/* * Copyright (c) 2012 The WebM project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef TEST_IVF_VIDEO_SOURCE_H_ #define TEST_IVF_VIDEO_SOURCE_H_ #include <cstdio> #include <cstdlib> #include <new> #include <string> #include "test/video_source.h" namespace libvpx_test { const unsigned int kCodeBufferSize = 256 * 1024 * 1024; const unsigned int kIvfFileHdrSize = 32; const unsigned int kIvfFrameHdrSize = 12; static unsigned int MemGetLe32(const uint8_t *mem) { return (mem[3] << 24) | (mem[2] << 16) | (mem[1] << 8) | (mem[0]); } // This class extends VideoSource to allow parsing of ivf files, // so that we can do actual file decodes. class IVFVideoSource : public CompressedVideoSource { public: explicit IVFVideoSource(const std::string &file_name) : file_name_(file_name), input_file_(NULL), compressed_frame_buf_(NULL), frame_sz_(0), frame_(0), end_of_file_(false) {} virtual ~IVFVideoSource() { delete[] compressed_frame_buf_; if (input_file_) fclose(input_file_); } virtual void Init() { // Allocate a buffer for read in the compressed video frame. compressed_frame_buf_ = new uint8_t[libvpx_test::kCodeBufferSize]; ASSERT_TRUE(compressed_frame_buf_ != NULL) << "Allocate frame buffer failed"; } virtual void Begin() { input_file_ = OpenTestDataFile(file_name_); ASSERT_TRUE(input_file_ != NULL) << "Input file open failed. Filename: " << file_name_; // Read file header uint8_t file_hdr[kIvfFileHdrSize]; ASSERT_EQ(kIvfFileHdrSize, fread(file_hdr, 1, kIvfFileHdrSize, input_file_)) << "File header read failed."; // Check file header ASSERT_TRUE(file_hdr[0] == 'D' && file_hdr[1] == 'K' && file_hdr[2] == 'I' && file_hdr[3] == 'F') << "Input is not an IVF file."; FillFrame(); } virtual void Next() { ++frame_; FillFrame(); } void FillFrame() { ASSERT_TRUE(input_file_ != NULL); uint8_t frame_hdr[kIvfFrameHdrSize]; // Check frame header and read a frame from input_file. if (fread(frame_hdr, 1, kIvfFrameHdrSize, input_file_) != kIvfFrameHdrSize) { end_of_file_ = true; } else { end_of_file_ = false; frame_sz_ = MemGetLe32(frame_hdr); ASSERT_LE(frame_sz_, kCodeBufferSize) << "Frame is too big for allocated code buffer"; ASSERT_EQ(frame_sz_, fread(compressed_frame_buf_, 1, frame_sz_, input_file_)) << "Failed to read complete frame"; } } virtual const uint8_t *cxdata() const { return end_of_file_ ? NULL : compressed_frame_buf_; } virtual size_t frame_size() const { return frame_sz_; } virtual unsigned int frame_number() const { return frame_; } protected: std::string file_name_; FILE *input_file_; uint8_t *compressed_frame_buf_; size_t frame_sz_; unsigned int frame_; bool end_of_file_; }; } // namespace libvpx_test #endif // TEST_IVF_VIDEO_SOURCE_H_